Study on the Influence of Distributed Photovoltaic on Distance Protection of Collecting Line

2022 Asian Conference on Frontiers of Power and Energy (ACFPE) Pub Date : 2022-10-01 DOI:10.1109/ACFPE56003.2022.9952212

Xuekai Hu, Qian Zhang, Lei Wang, Qi Zhang, Shaobo Yang, Zhu-liang Wang

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Abstract

Recently, distributed photovoltaic has exploded in growth, the different power supply characteristics and the formation of multi-terminal power supply network have had a great impact on the original distribution network protection. So the distance protection of collecting line with distributed photovoltaic is studied. Firstly, we analyze whether the faulty phase can be reliably identified from the phase selection component. And then it studies the adaptability of the impedance component according to three-phase short circuit, two-phase short circuit and ground fault. Finally, the simulation verification is performed based on RTDS. The simulation results show that the positive and negative sequence equivalent impedances of the distributed photovoltaic side are no longer equal, which results in the failure of the commonly used phase current difference mutation in phase selection. And when various types of faults occur in the collecting line, a large negative reactance will appear in the measurement impedance of the distributed photovoltaic side, causing the impedance component to refuse to operate.

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分布式光伏对集线线距离保护的影响研究

近年来，分布式光伏呈爆炸式增长，供电特性的不同和多终端供电网络的形成对原有配电网保护产生了很大的影响。为此，对分布式光伏集线线的距离保护进行了研究。首先，从选相分量分析故障相位能否可靠识别。然后研究了阻抗分量对三相短路、两相短路和接地故障的适应性。最后，基于RTDS进行了仿真验证。仿真结果表明，分布式光伏侧的正、负序等效阻抗不再相等，导致常用的相电流差突变选相失效。而当集线线发生各种类型的故障时，分布式光伏侧的测量阻抗会出现较大的负电抗，导致阻抗元件拒绝工作。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 Asian Conference on Frontiers of Power and Energy (ACFPE)

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